“Our study demonstrates the high sensitivity of [gallium Ga-68 dotatate] in the localization of [ectopic Cushing’s syndrome], for both occult primary tumors and metastatic lesions,” the researchers wrote. “Importantly, the use of [gallium Ga-68 dotatate] impacted clinical management in 64% of patients with [ectopic Cushing’s syndrome] overall.” The researche […]

The 11th annual Pituitary Day will take place on October 19, 2019 Patients living with pituitary disorders can hear lectures from our pituitary specialists, see movies of pituitary surgeries and hear from other patients about their experience living with pituitary disease and undergoing surgery.

Cynthia is from Ruckersville, VA. She is testing for Cushing's due to many symptoms. tested for CD because after exhaustive research on AVN (Avascular Necrosis) related to other diseases. I have four known areas of AVN & after seeing the symptoms of CD, I realized may have this. I also have numerous other diseases Lupus, Sojgrens, Hypothyroid, High […]

Today is the Thirteenth Anniversary of my kidney cancer surgery. These thirteen years have been bonus years for me. For my cancer stage, the 5-year survival rate was 81% and I’ve made it more than twice that long – so far.

Kathy was diagnosed with a pituitary tumor in 1991. At the time the only symptom she was aware of was a severe headache. She had a transsphenoidal resection followed by radiation therapy for 23 days. They said they could not remove all of the tumor.

Sadly, we lost another Cushing’s patient on Friday, May 9, 2014. Melinda was a member of the Cushing’s Help message boards since Jun 24, 2007. She was only 25 and left behind a young son and many loving family members.

He died of a presumed heart attack. September 19, 2015 he said "'I was diagnosed hypertensive way back when I was 20. The condition remained for years, and became more acute with my cushings pit tumor. I still have high blood pressure, partially teated with three meds. I'll have to consult my doc and see if this may also be an issue."

'My name is Caroline and I dont post often but have met a few of you guys and read the board regularly, it has definitely been a godsend to cushies everywhere. The reason I am writing tonight is I have just received devastating information about a dear friend of mine, and a woman some of you may have met during testing. Her name is Kathryn Miller and sh […]

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The U.S. Food and Drug Administration has approved the clinical use of a magnetic resonance imaging (MRI) scanner — the ultra-high-field 7T Terra MRI — with unprecedented resolution that allows for more reliable images of the brain.

The approach recently allowed the precise localization of a small tumor in the pituitary gland, which standard MRI had failed to spot, in a patient with Cushing’s disease.

The new scanner has an increased magnetic field strength of 7 Tesla, which is more than four times that of conventional MRI. This property greatly improves the instrument’s signal-to-noise ratio, dramatically increasing the spatial resolution and contrast of its images so that scientists can visualize the human living brain in high-definition and with unprecedented detail.

The 7T Terra is ideal for high-resolution neuroimaging, exploration of neurodegenerative diseases such as Alzheimer’s and Parkinson’s, and diagnosis and treatment of other brain diseases, a USC news story by Zara Greenbaum states.

Earlier this year, a report described the case of women with Cushing’s disease with a pituitary adenoma (slow-growing, benign tumor in the pituitary gland) that was possible to localize only with the new 7T MRI.

Based on laboratory analysis that revealed high levels of adrenocorticotropic hormone(ACTH) and cortisol, the doctors suspected a pituitary adenoma and recommended the patient for surgery. However, they ignored the precise location of the tumor, which failed to be detected by standard MRI scanners (1T and 3T).

Two hours before surgery, the woman underwent a 7T MRI scan which finally identified with high precision the location of the adenoma, a very small tumor of 8 mm on the right side of the pituitary gland.

“The 7T may save patients an invasive procedure. It also makes it easier for neurosurgeons to selectively remove a tumor without damaging surrounding areas,” said Gabriel Zada, MD, associate professor of neurological surgery at the Keck School.

Since its arrival, the device has supported exploratory research into both healthy and diseased brains.

Now the scanner’s advanced imaging technology can be used to help with diagnosis, treatment and monitoring of patients with neurological diseases, including Cushing’s disease.

“This device, which has already made its mark as a powerful tool to advance research in the neurosciences, is now accessible to clinical populations in addition to researchers,” said Arthur W. Toga, PhD, provost professor and chair at the Keck School and director of the USC Stevens INI.

“Clinicians across the university and beyond can now leverage all the benefits of increased spatial resolution to serve patients in need,” he said.

A noninvasive 7 Tesla MRI scanner at University of Southern California is the first 7T scanner to be used on a patient with Cushing’s disease in the U.S., according to a USC news release.

When a brain tumor was found to be “MRI-negative” in a 28-year-old female patient, physicians at the USC’s Pituitary Center were unsatisfied with the results. After deciding to use the Neuroimaging and Informatics Institute’s (INI) new ultrahigh field 7 Tesla MRI scanner to localize the tumor, the patient was officially diagnosed with Cushing’s disease and researchers were finally able to [be] see the tumor that would’ve otherwise appeared hidden in a standard MRI.

Cushing’s disease is caused by a pituitary microadenoma, or very small tumor, which results in chronically elevated cortisol. Symptoms include weight gain, skin bruising and hair loss and if left untreated, the condition can be fatal. Because of this case, USC researchers believe the 7T scanner will be able to replace the standard, and invasive, method of clinical diagnosis, according to the news release.

“It’s clear that this is the beginning of a new frontier for ultrahigh field MR technologies,” said Arthur Toga, PhD, director of the INI, in a prepared statement. “The enhanced image quality opens many doors for neuroscientists in both research and clinical settings.”